{ $Id$ Copyright (c) 1993-98 by Florian Klaempfl This units implements some code generator helper routines This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. **************************************************************************** } unit cgbase; interface uses globtype,cobjects,aasm,symtable,verbose,tree,cpuasm,cpubase; const pi_uses_asm = $1; { set, if the procedure uses asm } pi_is_global = $2; { set, if the procedure is exported by an unit } pi_do_call = $4; { set, if the procedure does a call } pi_operator = $8; { set, if the procedure is an operator } pi_C_import = $10; { set, if the procedure is an external C function } pi_uses_exceptions = $20;{ set, if the procedure has a try statement => } { no register variables } pi_is_assembler = $40; { set if the procedure is declared as ASSEMBLER => don't optimize} pi_needs_implicit_finally = $80; { set, if the procedure contains data which } { needs to be finalized } type TOpCg = (OP_ADD,OP_AND,OP_DIV,OP_IDIV,OP_IMUL,OP_MUL,OP_NEG,OP_NOT, OP_OR,OP_SAR,OP_SHL,OP_SHR,OP_SUB,OP_XOR); TOpCmp = (OC_EQ,OC_GT,OC_LT,OC_GTE,OC_LTE,OC_NE,OC_BE,OC_B, OC_AE,OC_A); TCgSize = (OS_NO,OS_8,OS_16,OS_32,OS_64); pprocinfo = ^tprocinfo; tprocinfo = record { pointer to parent in nested procedures } parent : pprocinfo; { current class, if we are in a method } _class : pobjectdef; { return type } retdef : pdef; { return type } sym : pprocsym; { symbol of the function } funcretsym : pfuncretsym; { the definition of the proc itself } { why was this a pdef only ?? PM } def : pprocdef; { frame pointer offset } framepointer_offset : longint; { self pointer offset } selfpointer_offset : longint; { result value offset } retoffset : longint; { firsttemp position } firsttemp : longint; funcret_is_valid : boolean; { parameter offset } call_offset : longint; { some collected informations about the procedure } { see pi_xxxx above } flags : longint; { register used as frame pointer } framepointer : tregister; { true, if the procedure is exported by an unit } globalsymbol : boolean; { true, if the procedure should be exported (only OS/2) } exported : boolean; { code for the current procedure } aktproccode,aktentrycode, aktexitcode,aktlocaldata : paasmoutput; { local data is used for smartlink } end; { some kind of temp. types needs to be destructed } { for example ansistring, this is done using this } { list } ptemptodestroy = ^ttemptodestroy; ttemptodestroy = object(tlinkedlist_item) typ : pdef; address : treference; constructor init(const a : treference;p : pdef); end; const { defines the default address size for a processor } { and defines the natural int size for a processor } {$ifdef i386} OS_ADDR = OS_32; OS_INT = OS_32; {$endif i386} {$ifdef alpha} OS_ADDR = OS_64; OS_INT = OS_64; {$endif alpha} {$ifdef powerpc} OS_ADDR = OS_32; OS_INT = OS_32; {$endif powercc} var { info about the current sub routine } procinfo : tprocinfo; { labels for BREAK and CONTINUE } aktbreaklabel,aktcontinuelabel : pasmlabel; { label when the result is true or false } truelabel,falselabel : pasmlabel; { label to leave the sub routine } aktexitlabel : pasmlabel; { also an exit label, only used we need to clear only the stack } aktexit2label : pasmlabel; { only used in constructor for fail or if getmem fails } quickexitlabel : pasmlabel; { Boolean, wenn eine loadn kein Assembler erzeugt hat } simple_loadn : boolean; { tries to hold the amount of times which the current tree is processed } t_times : longint; { true, if an error while code generation occurs } codegenerror : boolean; { this is for open arrays and strings } { but be careful, this data is in the } { generated code destroyed quick, and also } { the next call of secondload destroys this } { data } { So be careful using the informations } { provided by this variables } highframepointer : tregister; highoffset : longint; make_const_global : boolean; temptoremove : plinkedlist; { message calls with codegenerror support } procedure cgmessage(const t : tmsgconst); procedure cgmessage1(const t : tmsgconst;const s : string); procedure cgmessage2(const t : tmsgconst;const s1,s2 : string); procedure cgmessage3(const t : tmsgconst;const s1,s2,s3 : string); { initialize respectively terminates the code generator } { for a new module or procedure } procedure codegen_doneprocedure; procedure codegen_donemodule; procedure codegen_newmodule; procedure codegen_newprocedure; { counts the labels } function case_count_labels(root : pcaserecord) : longint; { searches the highest label } function case_get_max(root : pcaserecord) : longint; { searches the lowest label } function case_get_min(root : pcaserecord) : longint; { clears a location record } procedure clear_location(var loc : tlocation); { copies a location, takes care of the symbol } procedure set_location(var destloc,sourceloc : tlocation); { swaps two locations } procedure swap_location(var destloc,sourceloc : tlocation); implementation uses comphook; {***************************************************************************** override the message calls to set codegenerror *****************************************************************************} procedure cgmessage(const t : tmsgconst); var olderrorcount : longint; begin if not(codegenerror) then begin olderrorcount:=status.errorcount; verbose.Message(t); codegenerror:=olderrorcount<>status.errorcount; end; end; procedure cgmessage1(const t : tmsgconst;const s : string); var olderrorcount : longint; begin if not(codegenerror) then begin olderrorcount:=status.errorcount; verbose.Message1(t,s); codegenerror:=olderrorcount<>status.errorcount; end; end; procedure cgmessage2(const t : tmsgconst;const s1,s2 : string); var olderrorcount : longint; begin if not(codegenerror) then begin olderrorcount:=status.errorcount; verbose.Message2(t,s1,s2); codegenerror:=olderrorcount<>status.errorcount; end; end; procedure cgmessage3(const t : tmsgconst;const s1,s2,s3 : string); var olderrorcount : longint; begin if not(codegenerror) then begin olderrorcount:=status.errorcount; verbose.Message3(t,s1,s2,s3); codegenerror:=olderrorcount<>status.errorcount; end; end; {***************************************************************************** initialize/terminate the codegen for procedure and modules *****************************************************************************} procedure codegen_newprocedure; begin aktbreaklabel:=nil; aktcontinuelabel:=nil; { aktexitlabel:=0; is store in oldaktexitlabel so it must not be reset to zero before this storage !} { the type of this lists isn't important } { because the code of this lists is } { copied to the code segment } procinfo.aktentrycode:=new(paasmoutput,init); procinfo.aktexitcode:=new(paasmoutput,init); procinfo.aktproccode:=new(paasmoutput,init); procinfo.aktlocaldata:=new(paasmoutput,init); end; procedure codegen_doneprocedure; begin dispose(procinfo.aktentrycode,done); dispose(procinfo.aktexitcode,done); dispose(procinfo.aktproccode,done); dispose(procinfo.aktlocaldata,done); end; procedure codegen_newmodule; begin exprasmlist:=new(paasmoutput,init); datasegment:=new(paasmoutput,init); codesegment:=new(paasmoutput,init); bsssegment:=new(paasmoutput,init); debuglist:=new(paasmoutput,init); consts:=new(paasmoutput,init); rttilist:=new(paasmoutput,init); importssection:=nil; exportssection:=nil; resourcesection:=nil; asmsymbollist:=new(pasmsymbollist,init); asmsymbollist^.usehash; end; procedure codegen_donemodule; begin dispose(exprasmlist,done); dispose(codesegment,done); dispose(bsssegment,done); dispose(datasegment,done); dispose(debuglist,done); dispose(consts,done); dispose(rttilist,done); if assigned(importssection) then dispose(importssection,done); if assigned(exportssection) then dispose(exportssection,done); if assigned(resourcesection) then dispose(resourcesection,done); if assigned(resourcestringlist) then dispose(resourcestringlist,done); dispose(asmsymbollist,done); end; {***************************************************************************** Case Helpers *****************************************************************************} function case_count_labels(root : pcaserecord) : longint; var _l : longint; procedure count(p : pcaserecord); begin inc(_l); if assigned(p^.less) then count(p^.less); if assigned(p^.greater) then count(p^.greater); end; begin _l:=0; count(root); case_count_labels:=_l; end; function case_get_max(root : pcaserecord) : longint; var hp : pcaserecord; begin hp:=root; while assigned(hp^.greater) do hp:=hp^.greater; case_get_max:=hp^._high; end; function case_get_min(root : pcaserecord) : longint; var hp : pcaserecord; begin hp:=root; while assigned(hp^.less) do hp:=hp^.less; case_get_min:=hp^._low; end; {***************************************************************************** TTempToDestroy *****************************************************************************} constructor ttemptodestroy.init(const a : treference;p : pdef); begin inherited init; address:=a; typ:=p; end; {***************************************************************************** some helper routines to handle locations *****************************************************************************} procedure clear_location(var loc : tlocation); begin if ((loc.loc=LOC_MEM) or (loc.loc=LOC_REFERENCE)) and assigned(loc.reference.symbol) then dispose(loc.reference.symbol,done); loc.loc:=LOC_INVALID; end; procedure set_location(var destloc,sourceloc : tlocation); begin { this is needed if you want to be able to delete } { the string with the nodes } if assigned(destloc.reference.symbol) then dispose(destloc.reference.symbol,done); destloc:= sourceloc; if sourceloc.loc in [LOC_MEM,LOC_REFERENCE] then begin if assigned(sourceloc.reference.symbol) then destloc.reference.symbol:= sourceloc.reference.symbol; end else destloc.reference.symbol:=nil; end; procedure swap_location(var destloc,sourceloc : tlocation); var swapl : tlocation; begin swapl:=destloc; destloc:=sourceloc; sourceloc:=swapl; end; end. { $Log$ Revision 1.8 1999-08-06 13:26:49 florian * more changes ... Revision 1.7 1999/08/05 14:58:10 florian * some fixes for the floating point registers * more things for the new code generator Revision 1.6 1999/08/04 00:23:51 florian * renamed i386asm and i386base to cpuasm and cpubase Revision 1.5 1999/08/01 18:22:32 florian * made it again compilable Revision 1.4 1999/01/23 23:29:45 florian * first running version of the new code generator * when compiling exceptions under Linux fixed Revision 1.3 1999/01/06 22:58:48 florian + some stuff for the new code generator Revision 1.2 1998/12/26 15:20:28 florian + more changes for the new version Revision 1.1 1998/12/15 22:18:55 florian * some code added }